JPS60139748A - Vinyl chloride resin composition - Google Patents
Vinyl chloride resin compositionInfo
- Publication number
- JPS60139748A JPS60139748A JP24552683A JP24552683A JPS60139748A JP S60139748 A JPS60139748 A JP S60139748A JP 24552683 A JP24552683 A JP 24552683A JP 24552683 A JP24552683 A JP 24552683A JP S60139748 A JPS60139748 A JP S60139748A
- Authority
- JP
- Japan
- Prior art keywords
- vinyl chloride
- weight
- parts
- graft copolymer
- polymerization
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Compositions Of Macromolecular Compounds (AREA)
- Graft Or Block Polymers (AREA)
Abstract
Description
【発明の詳細な説明】
本発明はゴム状弾性を付与した塩化ビニル系樹脂、、組
成物、更慨、は、メタてクリー酸アーキルーヘテ′重合
体0存′!■に塩1ヒト−′をう′力″重合して得られ
へ共重合体に可塑剤を添加して得られる塩化ビニ化第樹
脂組成物に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention provides a vinyl chloride resin, a composition, and a composition having rubber-like elasticity, which contains no methacrylic acid archylhetyl polymer! The present invention relates to a vinyl chloride resin composition obtained by adding a plasticizer to a copolymer obtained by force-polymerizing salt 1-1 to (2).
軟質塩、化ビニル樹声畔化学的性質、物理的性質に、、
おいてバランスのとれた樹脂であり幅広い用途に使用さ
れている。、しかし、ホース、パツキン、!線、靴底、
、ブーツ1.レザー、フィルム、自動車の1塞部品等の
用途ではさらにゴム的性質を向上させることが要求され
ている。Soft salt, vinyl oxide chemical properties, physical properties,
It is a well-balanced resin and is used in a wide range of applications. , But Hose, Patsukin,! lines, soles,
, boots 1. Further improvements in rubber properties are required for applications such as leather, films, and automotive parts.
、ゴム的坤質を向、上させるための方法として従来手、
に次の、。2つの方法で!、知ら:!している。すなわ
ち、[1j、、ベースレジンとして坐重合度塩化ビニル
樹脂を用、いる方法。(2)塩yヒビニル4の共重合体
又はプレン4ド1に門る方法である?、シかし、これら
の方法はいす、れも満足すべきものとは言い難い。、(
1)の方法につい4ては物性は良好である。が、加工性
に問題がやり、(2)の方法については塩化ビニル樹脂
と弾性材料との相溶性が問題となシ物性の低下を起こし
易く等未だ満足された結果は得られていない。, as a method to improve and improve the quality of rubber,
To the next,. Two ways! ,Know:! are doing. That is, [1j, a method in which a polyvinyl chloride resin with a high degree of polyvinyl chloride is used as the base resin. (2) Is it a method based on the copolymer of salt y hibinyl 4 or prene 4 de 1? However, none of these methods can be called satisfactory. ,(
Regarding method 1), the physical properties are good in method 4. However, there are problems with processability, and method (2) has not yet produced satisfactory results, such as problems with compatibility between the vinyl chloride resin and the elastic material, which tends to cause deterioration of physical properties.
本発明者らは、塩化ビニル樹脂にゴム状弾性を付与する
ことを目的として鋭意研究した結果、メタクリル樹脂の
存在下、塩化ビニル単量体をグラフト重合して得られる
メタアクリル酸アルキルエステル重合体−塩化ビニルグ
ラフト共重合体(以下、PMMA−f−VCと略す。)
に可塑剤を添加することによシ、ゴム的性質に優れかつ
加工性の良好な材料が得られることを見出し本発明に到
った。As a result of intensive research aimed at imparting rubber-like elasticity to vinyl chloride resin, the present inventors have discovered a methacrylic acid alkyl ester polymer obtained by graft polymerization of vinyl chloride monomer in the presence of methacrylic resin. - Vinyl chloride graft copolymer (hereinafter abbreviated as PMMA-f-VC)
It was discovered that a material with excellent rubbery properties and good processability could be obtained by adding a plasticizer to the material, leading to the present invention.
塩化ビニルのグラフト重合は、塩化ビニル樹脂の改質方
法として公知の方法である。例えば、衝撃強度の向上の
ためにエチレン−酢酸ビニル共重合体を幹とする塩化ビ
ニル単量体のグラフト共重合体が知られている。また軟
質塩化ビニル樹脂の可塑剤移行性を改良するために液状
可塑剤の代替をねらった無可塑軟質化ビニル樹脂として
グラフト共重合体がある。このように塩化ビニルのグラ
フト共重合体は、従来は耐衝撃性の向上、無可塑軟質化
等の目的に使用されていた。しかし、PMMA−t−V
Cを軟質化し、ゴム的性質を付与した例は知られていな
い。Graft polymerization of vinyl chloride is a known method for modifying vinyl chloride resin. For example, graft copolymers of vinyl chloride monomers having an ethylene-vinyl acetate copolymer as a backbone are known for improving impact strength. Graft copolymers are also available as non-plasticized softened vinyl resins intended to replace liquid plasticizers in order to improve the plasticizer transferability of soft vinyl chloride resins. As described above, graft copolymers of vinyl chloride have conventionally been used for purposes such as improving impact resistance and making plastic materials softer. However, PMMA-t-V
There are no known examples of softening C to impart rubbery properties.
以下に本発明の詳細な説明する。The present invention will be explained in detail below.
すなわち、本発明は、メタアクリル酸アルキルエステル
重合体の存在下、塩化ビニル単量体を水性懸濁中でラジ
カル重合することによシ製造された塩化ビニル含@XO
〜90重量%のP MMA −t−VClo O重量部
ト可ffi剤s O〜20 o’l1g部からなるゴム
状弾性を付与した塩化ビニル系樹脂組成物である。低温
重合したPMMA−1−VCに可塑剤を添加すると軟質
化した塩化ビニル樹脂中に可塑剤を吸収しえない幹ポリ
マーが一種の架橋点の働きをし、ゴム状弾性が発現され
たものと考えられる。That is, the present invention provides vinyl chloride-containing @
This is a vinyl chloride-based resin composition imparted with rubber-like elasticity, consisting of ~90% by weight of PMMA-t-VCloO, and 1g part of a plasticizing agent sO~20o'l. When a plasticizer is added to low-temperature polymerized PMMA-1-VC, the backbone polymer, which cannot absorb the plasticizer, acts as a kind of crosslinking point in the softened vinyl chloride resin, resulting in rubber-like elasticity. Conceivable.
本発明で使用されるメタクリル樹脂は粉末状でもペレッ
ト状でもよく特に制約は受けない。The methacrylic resin used in the present invention may be in the form of powder or pellets and is not particularly limited.
PMMA−t−VCにおける塩化ビニル含量は60〜9
0重量%の範囲が望ましい。塩化ピニルキせが30重i
%より低いと機械的強度が低下し、また塩化ビニルき普
が90M量%より高いPMMA−r −v cを得るた
めKは重合時間が長く、生産性が悪い。The vinyl chloride content in PMMA-t-VC is 60-9
A range of 0% by weight is desirable. Pynylic chloride 30 heavy i
If it is lower than 90 M%, the mechanical strength decreases, and since vinyl chloride is used to obtain PMMA-r-vc higher than 90 M%, K requires a long polymerization time, resulting in poor productivity.
PMMA−f−VCの製造法はPMMA5〜so重量部
を水媒体、懸濁安定剤の懸濁下で塩化ビニル単量体に均
一溶解した後、重合開始剤を添加し重合する溶解グラフ
ト重合法やまたPMMAs〜50重量部に水媒体、油溶
性開始剤、懸濁安定剤あるいは不活性有機溶剤を添加し
、塩化ビニル単量体の圧力を重合温度における塩化ビニ
ル単量体の飽和圧力と対比して、その比が0.4〜0.
99にあるように保持しながら重合する方法のどちらの
重合法でもよい。前者の重合法で、PMMAの使用址が
5重ilチ未満では、目的重合体組成物の加工性が充分
でなく、50重量−を越える場合には、重合系の粘度が
増加するため製造上、スケール付着や未反応塩化ビニル
単量体の回収時におこる発泡等、種々の問題が生ずるの
で好ましくな′い。後者の重合法では、塩化ビニル単量
体の圧力を重合温度における塩化ビニル単量体の飽和圧
力と対比してその比が0.4〜0.99の範囲が好まし
い。0.99を越えるとホモポリマーの生成が著しく、
0.4未満では重合速度が低下し、好ましくない。また
、相対圧力比をあげるとベレット状の原料を仕込んだ場
合でも得られた重合体は粉末状となる。これは後のコン
パウンディングが容易となり、作業性の面で好ましい。The method for producing PMMA-f-VC is a dissolution graft polymerization method in which 5 to so parts by weight of PMMA are homogeneously dissolved in vinyl chloride monomer under suspension of an aqueous medium and a suspension stabilizer, and then a polymerization initiator is added and polymerized. Add an aqueous medium, an oil-soluble initiator, a suspension stabilizer, or an inert organic solvent to ~50 parts by weight of PMMA, and compare the pressure of the vinyl chloride monomer with the saturation pressure of the vinyl chloride monomer at the polymerization temperature. and the ratio is 0.4 to 0.
Any polymerization method including the method of polymerizing while holding as described in No. 99 may be used. In the former polymerization method, if the amount of PMMA used is less than 50% by weight, the processability of the target polymer composition is insufficient, and if it exceeds 50% by weight, the viscosity of the polymerization system increases, making it difficult to manufacture. This is undesirable since it causes various problems such as scale adhesion and foaming during recovery of unreacted vinyl chloride monomer. In the latter polymerization method, the ratio of the pressure of the vinyl chloride monomer to the saturation pressure of the vinyl chloride monomer at the polymerization temperature is preferably in the range of 0.4 to 0.99. When it exceeds 0.99, homopolymer formation is significant;
If it is less than 0.4, the polymerization rate will decrease, which is not preferable. Furthermore, when the relative pressure ratio is increased, the obtained polymer becomes powdery even when pellet-shaped raw materials are charged. This facilitates subsequent compounding, which is preferable in terms of workability.
本重合法で使用される油溶性重合開始剤は2.2′−□
アゾビスー2.4−ジメチルバレロニトリル、2゜2′
−アゾビス−4−メトキシ−2,4−ジメチルバレロニ
トリル、2.2’−アゾビスイソブチロニトリル等のア
ゾ化合物、過酸化ラウロイル、過酸化ベイジイル、t−
ブチルパーオキシピバレート、1−ブチルパーオキシネ
オデカネート等の過酸化物、ジ−イソプロピルパーオキ
シジカーボネート、ジー8ee−ブチルパーオキシジカ
ーボネート、ジー2−エチルヘキシルパーオキシジカー
ボネート等のパーオキシジカーボネート類、アセチルシ
クロへキシルスルホニルパーオキサイド、アセテルー2
−エチルへキシルスルホニルパーオキサイド等の含硫黄
系パーオキサイド類等通常使用されるものが単独又は併
用の形で使用できる。The oil-soluble polymerization initiator used in this polymerization method is 2.2'-□
Azobis-2,4-dimethylvaleronitrile, 2°2'
- Azo compounds such as azobis-4-methoxy-2,4-dimethylvaleronitrile, 2,2'-azobisisobutyronitrile, lauroyl peroxide, bayyl peroxide, t-
Peroxides such as butyl peroxy pivalate, 1-butyl peroxy neodecanate, peroxy dicarbonates such as di-isopropyl peroxy dicarbonate, di-8ee-butyl peroxy dicarbonate, di-2-ethylhexyl peroxy dicarbonate, etc. Carbonates, acetylcyclohexylsulfonyl peroxide, acetelium 2
- Commonly used sulfur-containing peroxides such as ethylhexylsulfonyl peroxide can be used alone or in combination.
本重合法では分散剤は使用してもしなくても良いが、使
用する場合、その量は水媒体に対し、0.15重量−以
下が使われ、種類は公知の分散剤でろればよく、例えば
メチルセルロース、エチルセルロース、プロピルセルロ
ース、ヒドロキシエチルセルロース、ヒドロキシエチル
セルロース等のセルロース誘導体、部分ケン化ポリビニ
ルアルコール、ポリアクリル酸、無水マレイン酸、ビニ
ルエーテル共重合体等の合成高分子、プロピレンre&
妨鹸エステル
グリコ旨pご7ずセリン脂肪酸エステル、ショ糖酸エス
テル、ソルビタン酸エステル等のエステル類等が単独又
は併用の形で使用できる。In this polymerization method, a dispersant may or may not be used, but when used, the amount used is 0.15 weight or less based on the aqueous medium, and the type of dispersant may be any known dispersant. For example, cellulose derivatives such as methylcellulose, ethylcellulose, propylcellulose, hydroxyethylcellulose, hydroxyethylcellulose, partially saponified polyvinyl alcohol, polyacrylic acid, maleic anhydride, synthetic polymers such as vinyl ether copolymers, propylene re&
Esters such as serine fatty acid ester, sucrose acid ester, and sorbitan acid ester can be used alone or in combination.
重合温度は20〜60℃好ましくは20〜50℃の範囲
で選択できる。重合温度≠裔北i1H日ヒが高いと重合
度が低下し、機械的性質に問題が生ずる。重合温度が低
いと機械的性質は向上するが、加工性が低下する。また
、重合時間が長く、生産性も悪い。The polymerization temperature can be selected within the range of 20 to 60°C, preferably 20 to 50°C. If the polymerization temperature is high, the degree of polymerization will decrease and problems will arise in mechanical properties. Lower polymerization temperatures improve mechanical properties but reduce processability. In addition, the polymerization time is long and the productivity is poor.
本発明組成物で使用される可盟剤は特に制限はないが、
例えばジブチルフタレート、ジオクチルフタレート等の
フタル酸エステル、ジオクチルアジペート、ジオクチル
セバケート等の二塩基酸エステル、その他リン酸エステ
ル、多価アルコール及びその誘導体、エポキシ脂肪酸エ
ステル、塩素化パラフィン、ポリエステル、ポリエーテ
ル類等樹脂組成物100重量部に対し30重量部〜20
0重量部が使用される。その使用量は使用目的によって
選択すれば良いが、60重量部未満ではゴム状弾性が得
られず、200重量部を越えるとドライアップが難しく
、成形加工上、困難な点が生ずるう
又、本発明組成物は、必要に応じて通常使用される充填
剤、各種改質剤、各種添加剤等が添加される。The binder used in the composition of the present invention is not particularly limited, but
For example, phthalic acid esters such as dibutyl phthalate and dioctyl phthalate, dibasic acid esters such as dioctyl adipate and dioctyl sebacate, other phosphoric acid esters, polyhydric alcohols and their derivatives, epoxy fatty acid esters, chlorinated paraffins, polyesters, and polyethers. 30 parts by weight to 20 parts by weight per 100 parts by weight of the resin composition
0 parts by weight are used. The amount used can be selected depending on the purpose of use, but if it is less than 60 parts by weight, rubber-like elasticity will not be obtained, and if it exceeds 200 parts by weight, it will be difficult to dry up and cause difficulties in molding. To the composition of the invention, commonly used fillers, various modifiers, various additives, etc. are added as necessary.
充填剤としては炭酸カルシウム、硫酸パIJ 17 ム
、タルク、クレー、マイカ、シリカ、水酸化アルミニウ
ム、水酸化マグネシウム、ケイ酸塩類、カーボンブラッ
ク等があげられ、その添加量は塩化ビニルグラフト共重
合体100重量部に対して、100重量部以下が使用さ
れる。Examples of fillers include calcium carbonate, palm sulfate, talc, clay, mica, silica, aluminum hydroxide, magnesium hydroxide, silicates, carbon black, etc., and the amount added is equal to that of the vinyl chloride graft copolymer. 100 parts by weight or less is used relative to 100 parts by weight.
又、“顔料、熱安定剤、難燃剤、紫外線吸収剤、滑剤、
帯電時IE剤、防曇剤等各種添加剤を加えても良い。In addition, “pigments, heat stabilizers, flame retardants, ultraviolet absorbers, lubricants,
Various additives such as an IE agent and an antifogging agent may be added during charging.
次に本発明組成物の製造方法としては、該組成物をスー
パーミキサ−、ヘンシェルミキサー等を使用して従来公
知の方法で均一混合し、ロールミル、バンバリーミキサ
−1混練押出機等の混練機を用いて加熱混練し、各用途
に応じた形状に成形される。本発明のPMMA−F−V
C組成物は機械的強度、反発弾性率以外に、ついてもゴ
ム的性質に要求される物性を満たしており、ホース、パ
ツキン、電線、靴底、ブーツ、レザー、フィルム、自動
車の工業部品等に使用でき、工業的に有益な組成物であ
る。Next, as a method for producing the composition of the present invention, the composition is uniformly mixed using a conventionally known method using a super mixer, a Henschel mixer, etc., and then a kneading machine such as a roll mill or a Banbury mixer 1 kneading extruder is used. It is heated, kneaded, and molded into a shape suitable for each purpose. PMMA-F-V of the present invention
Composition C satisfies the physical properties required for rubber properties in addition to mechanical strength and impact modulus, and is useful for hoses, packing, electric wires, shoe soles, boots, leather, films, automobile industrial parts, etc. It is an industrially useful composition.
次に本発明で使用する物性の測定法について以下に示す
。Next, the method for measuring physical properties used in the present invention will be described below.
′ 硬度:JIS K 63o1(A形の10秒後の値
)に準じて測定した。' Hardness: Measured according to JIS K 63o1 (value after 10 seconds for type A).
引張特性: JIS K 6725 に準じて測定した
。Tensile properties: Measured according to JIS K 6725.
反発弾性率:JISK6301 に準じて測定した。Repulsion elasticity modulus: Measured according to JISK6301.
溶融粘度:高化式フローテスター(ノズル1fX10m
m、180℃)
η=τ、//r(’r= 10’ se+” ”のT値
から計算した値)
次に実施例を挙げて本□発明を具体的に説明するが、本
発明は、その要旨を越え碌い限9、以下の実施例に制約
されるものではない。Melt viscosity: Koka type flow tester (nozzle 1f x 10m
m, 180°C) η = τ, //r (value calculated from the T value of 'r = 10' se + "") Next, the present invention will be specifically explained with reference to Examples. However, beyond the scope and scope of the invention, the present invention is not limited to the following embodiments.
実施例1(PMMA−tLVCの製造方法)2tオート
クレーブに純水60.Of、メタクリル樹脂(旭化成@
製商品名[デルペラ) 6ONJ)’ 00 tXa−
クミルパーオキネオデカノエート0.5f、部分ケン化
ポリビニルアルコール1tを仕込んだ。脱気窒素置換後
減圧にし、低速攪拌しながら塩化ビニール単量体の圧力
を重合温度における塩化ビニル単量体の飽和圧力と対比
して、その比が0.96にあるように保持し、40℃で
重合を行なった。9時間で重合を終了し、未反応単量体
をパージして生成した重合物を取り出し、脱水乾燥した
。塩化ビニル含量68襲の重合物が3052得られた。Example 1 (Production method of PMMA-tLVC) Purified water 60% was placed in a 2t autoclave. Of, methacrylic resin (Asahi Kasei @
Product name [Delpera] 6ONJ)' 00 tXa-
0.5 f of cumyl peroxyneodecanoate and 1 t of partially saponified polyvinyl alcohol were charged. After degassing and replacing with nitrogen, the pressure was reduced, and while stirring at low speed, the pressure of the vinyl chloride monomer was compared with the saturation pressure of the vinyl chloride monomer at the polymerization temperature, and the ratio was maintained at 0.96. Polymerization was carried out at °C. Polymerization was completed in 9 hours, unreacted monomers were purged, and the resulting polymer was taken out and dehydrated and dried. 3052 polymers having a vinyl chloride content of 68 were obtained.
(組成物)
このようにして得られたPMMA−y−VC1oO重量
部に対し、錫系安定剤4重量部をスーパーミキサーで充
分混合した。該混合物を加熱ロールミルで150℃15
分間可塑剤(DOPニジオクチル7タル酸エステル)7
0重量部とともに混練した。(Composition) 4 parts by weight of a tin-based stabilizer were thoroughly mixed with 100 parts by weight of PMMA-y-VC obtained in this way using a super mixer. The mixture was heated to 150℃15 using a heated roll mill.
Minute plasticizer (DOP nidioctyl 7-talate ester) 7
It was kneaded with 0 parts by weight.
得られたシートをプレス成形し物性を測定した。The obtained sheet was press-molded and its physical properties were measured.
その結果を表1に示した。The results are shown in Table 1.
実施例2 (PMMA−y−VC(D製造方法)PMM
A−v−VCの塩化ビニル含量をかえるため重合時間を
5時間にした以外は実施例1に従って重合した。その結
果、塩化ビニル含量59係の重合物が2472得られた
。Example 2 (PMMA-y-VC (D manufacturing method) PMM
Polymerization was carried out according to Example 1, except that the polymerization time was changed to 5 hours in order to change the vinyl chloride content of A-v-VC. As a result, 2472 polymers having a vinyl chloride content of 59 were obtained.
(組成物) 実施例1に従った。(Composition) Example 1 was followed.
実施例3 (PMMA−t−VC(D製造方法)PMM
A−f−VCの塩化ビニル含量をかえるため重合時間を
13時間にした以外は実施例1に従って重合した。その
結果、塩化ビニル含量82%の重合物が280f得られ
た。Example 3 (PMMA-t-VC (D manufacturing method) PMM
Polymerization was carried out according to Example 1, except that the polymerization time was changed to 13 hours in order to change the vinyl chloride content of A-f-VC. As a result, 280f of polymer having a vinyl chloride content of 82% was obtained.
(組成物)
実施例1に従ったっ
実施例4
実施例1で得られたPMMA−t−VC1oo重量部に
対し、錫系安定剤4重量部をスーツ<−ミキサーで充分
混合した。該混合物を加熱ロールミルで150℃15分
間可塑剤(DOP)1oo重量部とともに混練した。、
得られたシートをプレス成形し物性を測定した。(Composition) According to Example 1 Example 4 10 parts by weight of PMMA-t-VC obtained in Example 1 was thoroughly mixed with 4 parts by weight of a tin-based stabilizer using a suit mixer. The mixture was kneaded with 100 parts by weight of a plasticizer (DOP) at 150° C. for 15 minutes in a heated roll mill. ,
The obtained sheet was press-molded and its physical properties were measured.
実施例5(懸濁法によるPMMA−r−VCの製造方法
)
2tオートクレーブに純水900 f、メタクリル樹脂
502、部分ケン化ポリビニルアルコール49、塩化ビ
ニル単量体5002を仕込み、60℃、2時間高速攪拌
した。40℃に冷却後、α−クミルバーオキシネオデカ
ノエー) 0.4 f Kl−圧入し重合を開始した。Example 5 (Production method of PMMA-r-VC by suspension method) A 2-t autoclave was charged with 900 f of pure water, 502 methacrylic resin, 49 partially saponified polyvinyl alcohol, and 5002 vinyl chloride monomer, and heated at 60°C for 2 hours. Stir at high speed. After cooling to 40° C., 0.4 f Kl of α-cumylbaroxyneodecanoate was injected to initiate polymerization.
重合圧力が36に9/cdゲ・−ジ圧に低下したところ
で重合を終了し、未反応単量体をパージして111°合
物を取り出し脱水乾燥しL塩化ビニル&fta2%の重
合物が284を得られた。The polymerization was terminated when the polymerization pressure decreased to 36 to 9/cd g.-d pressure, and the unreacted monomer was purged and the 111° compound was taken out and dehydrated and dried to obtain a polymer of L vinyl chloride & fta 2%. I got it.
(組成物) 実施例1に従った。(Composition) Example 1 was followed.
比較例1 (塩化ビニル単独重合体とメタクリル樹脂の
ブレンド系)
塩化ビニル単独重合体(P 1,500)100重量部
にメタクリル樹脂60重量部、錫系安定剤4重量部、可
塑剤として、L)OP(ジオクチルフタル酸エステ化)
70重量部を加え、スーパーミキサーで混合した。得ら
れた混合物を150℃、15分間混練したが均一なシー
トは得られず、ロールシート上に不溶物が観察された。Comparative Example 1 (Blend system of vinyl chloride homopolymer and methacrylic resin) 100 parts by weight of vinyl chloride homopolymer (P 1,500), 60 parts by weight of methacrylic resin, 4 parts by weight of tin-based stabilizer, and L as a plasticizer. )OP (dioctyl phthalate esterification)
70 parts by weight were added and mixed using a super mixer. The resulting mixture was kneaded at 150° C. for 15 minutes, but no uniform sheet was obtained, and insoluble matter was observed on the rolled sheet.
比較例2 (誦重合度塩化ビニル重合体に可塑剤を添加
した系)
懸濁法で低温重合した塩化ビニル重合体100重量部に
錫系安定剤4重量部、可塑剤としてDOPを70重レノ
を加え、スーパーミキサーで混合した。Comparative Example 2 (System in which a plasticizer is added to a vinyl chloride polymer with a high degree of polymerization) 100 parts by weight of a vinyl chloride polymer polymerized at low temperature by a suspension method, 4 parts by weight of a tin-based stabilizer, and 70 parts of DOP as a plasticizer. was added and mixed using a super mixer.
得られた混合物を加熱ロールミルにより160℃10分
間混練し、シート状で取出した。ブレス成形後、実施例
1に従って物性測定を行なった。The resulting mixture was kneaded at 160° C. for 10 minutes using a heated roll mill, and then taken out in the form of a sheet. After press molding, physical properties were measured according to Example 1.
実施例と比較例の物性結果を表1に示す。′表1
以上の結果から同じ硬度で辻斬するとブレンド系(比較
例1)ではロール混線に時間がかがシ、ロールシート上
に不溶物があり好ましくない。高重合度塩化ビニル重合
体に可塑剤を添加した系(比較例2)は機械的強度は優
れているが、溶融粘度が高い。したがって本発叩のPM
MA−f −VC組成物は、反発弾性率が高く、溶融粘
度も低いことから、・物性加工性のバランスのとれた塩
ビ系エラストマーとして有益なことは明らかである。Table 1 shows the physical property results of Examples and Comparative Examples. 'Table 1 From the above results, when cross-cutting with the same hardness, the blend system (Comparative Example 1) takes time to cross-wire the rolls, and there are insoluble matters on the roll sheet, which is not preferable. A system in which a plasticizer is added to a highly polymerized vinyl chloride polymer (Comparative Example 2) has excellent mechanical strength, but has a high melt viscosity. Therefore, the PM of the main strike
Since the MA-f-VC composition has a high rebound modulus and a low melt viscosity, it is clear that it is useful as a vinyl chloride elastomer with well-balanced physical properties and processability.
特許出願人 東洋曹達工業株式会社
手続補正朋
昭和59年 2月21日
特rr庁長信若杉和夫殿
1事件の表示
昭和58年特許願第 245526 号2発明の名称
iia化ビ化層ニル系樹脂組
成物正をする者
小作との関係 !特許出願人
電話番号(585)3B+1
4補正命令の日イマj
自 発
5補市により増加する発明の数 0
6補正の対象
明細書の発明の詳細な説明の佃
7補正の内容
iu 明細書第7頁、2〜3行の記述を次の様に訂正す
る。Patent Applicant: Toyo Soda Kogyo Co., Ltd. Procedural Amendments February 21, 1980 Mr. Kazuo Nobuwakasugi, Director of the Special RR Agency 1 Case Indication 1982 Patent Application No. 245526 2 Name of the Invention IIA Vinyl Layer Nyl-based Resin The relationship between those who make composition positive and sharecropping! Patent Applicant Telephone Number (585) 3B+1 4. Date of Amendment Order Immediately 5. Number of Inventions Increased by Amendment 0. 6. Detailed Explanation of the Invention in the Specification Subject to Amendment 7. Contents of Amendment iu Description No. The description in lines 2 and 3 on page 7 is corrected as follows.
「本重合法で使用される懸濁安定剤の景は」(2) 同
7頁、4行目に
「公知の分散剤」とあるのを
「公知の安定剤」と訂正する。"About the suspension stabilizers used in this polymerization method" (2) On page 7, line 4, "known dispersants" is corrected to "known stabilizers."
(3) 同10頁、5行[]に 「τ値から」とあるのを「τ値から」と訂正する。(3) Same page 10, line 5 [] The phrase "from the τ value" is corrected to "from the τ value."
(4)同11頁、7行目と同12頁、9行目及び同13
貞11行目に
「150℃」とあるのを1160℃」と訂正する。(4) Page 11, line 7 and page 12, line 9 and 13
In the 11th line of the text, ``150℃'' is corrected to ``1160℃''.
以上that's all
Claims (1)
下、塩化ビニル単量体をラジカル重合することによ#)
製造された塩化、ビニル含量30〜90重址俤のメタア
クリル酸アルキルエステル重合体−塩化ビニルグラフト
共重合体100重量部と可塑剤3!:1〜200重量部
からなるゴム状弾性を付与し、たことを特徴とする塩化
ビニル系樹脂組成物。 (2)メタアクリル酸アルキ省エステル重合体−塩化ビ
ニルグラフト共重合体が、塩化ビニル単量体を実質的に
液相、とじて存在しない状態でグラフト重合して得られ
た共重合体であることを特徴とする特許請求の範囲第1
項記載の組成、物。[Claims] +1) By radical polymerizing vinyl chloride monomer in the presence of a methacrylic acid alkyl ester polymer #)
100 parts by weight of the produced methacrylic acid alkyl ester polymer-vinyl chloride graft copolymer having a vinyl chloride content of 30 to 90 parts by weight and 3 parts by weight of a plasticizer. : 1 to 200 parts by weight of a vinyl chloride-based resin composition imparted with rubber-like elasticity. (2) The alkyl methacrylate-saving ester polymer-vinyl chloride graft copolymer is a copolymer obtained by graft polymerizing vinyl chloride monomer in a substantially liquid phase state and in the absence of the vinyl chloride monomer. Claim 1 characterized in that
Compositions and products described in section.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP24552683A JPS60139748A (en) | 1983-12-28 | 1983-12-28 | Vinyl chloride resin composition |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP24552683A JPS60139748A (en) | 1983-12-28 | 1983-12-28 | Vinyl chloride resin composition |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS60139748A true JPS60139748A (en) | 1985-07-24 |
JPH0354707B2 JPH0354707B2 (en) | 1991-08-21 |
Family
ID=17134992
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP24552683A Granted JPS60139748A (en) | 1983-12-28 | 1983-12-28 | Vinyl chloride resin composition |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS60139748A (en) |
-
1983
- 1983-12-28 JP JP24552683A patent/JPS60139748A/en active Granted
Also Published As
Publication number | Publication date |
---|---|
JPH0354707B2 (en) | 1991-08-21 |
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